中华骨科杂志
中華骨科雜誌
중화골과잡지
CHINESE JOURNAL OF ORTHOPAEDICS
2012年
8期
768-773
,共6页
贺宝荣%许正伟%郝定均%郭华%昌震%王栋琪
賀寶榮%許正偉%郝定均%郭華%昌震%王棟琪
하보영%허정위%학정균%곽화%창진%왕동기
骨质疏松%脊柱骨折%甲基丙烯酸甲酯类%生物力学
骨質疏鬆%脊柱骨摺%甲基丙烯痠甲酯類%生物力學
골질소송%척주골절%갑기병희산갑지류%생물역학
Osteoporosis%Spinal fractures%Methylmethacrylates%Biomechanics
目的 研究骨水泥在腰椎骨质疏松性骨折椎体内不同区域分布状态的生物力学特性,为经皮椎体后凸成形术(percutaneous kyphoplasty,PKP)临床应用提供理论依据.方法 取12具福尔马林固定的老年尸体腰椎标本(包括L1~L5),共筛选49个椎体.对各椎体标本施加轴向压力负载,测量各椎体的原始强度和刚度,并建立椎体压缩骨折模型.按临床PKP手术操作要求根据不同的椎体分区灌注骨水泥,分为对照组和6个实验组,每组7个椎体.测量每组的最大压缩强度和刚度.结果 PKP术后各实验组最大压缩强度较初始强度均明显增强.单侧前2/3灌注组和单侧后2/3灌注组比较,单侧全灌注组、双侧前2/3灌注组和双侧后2/3灌注组比较差异均无统计学意义;椎体最大压缩强度双侧全灌注组>单侧全灌注组、双侧前2/3灌注组和双侧后2/3灌注组>单侧前2/3灌注组和单侧后2/3灌注组.PKP术后双侧全灌注组椎体刚度和初始刚度比较差异无统计学意义,其余各组度均明显小于初始刚度.单侧前2/3灌注组、单侧后2/3灌注组和单侧全灌注组比较,D和双侧后2/3灌注组比较差异无统计学意义;双侧全灌注组>双侧前2/3灌注组和双侧后2/3灌注组>单侧前2/3灌注组、单侧后2/3灌注组和单侧全灌注组.结论 骨水泥分布在骨质疏松性骨折椎体的不同区域,其生物力学性能存在差异,骨水泥在椎体双侧分布较单侧分布可以获得更好的生物力学效应.骨水泥均匀分布于椎体前2/3区域是较为理想的分布状态,但仍需临床进一步验证.
目的 研究骨水泥在腰椎骨質疏鬆性骨摺椎體內不同區域分佈狀態的生物力學特性,為經皮椎體後凸成形術(percutaneous kyphoplasty,PKP)臨床應用提供理論依據.方法 取12具福爾馬林固定的老年尸體腰椎標本(包括L1~L5),共篩選49箇椎體.對各椎體標本施加軸嚮壓力負載,測量各椎體的原始彊度和剛度,併建立椎體壓縮骨摺模型.按臨床PKP手術操作要求根據不同的椎體分區灌註骨水泥,分為對照組和6箇實驗組,每組7箇椎體.測量每組的最大壓縮彊度和剛度.結果 PKP術後各實驗組最大壓縮彊度較初始彊度均明顯增彊.單側前2/3灌註組和單側後2/3灌註組比較,單側全灌註組、雙側前2/3灌註組和雙側後2/3灌註組比較差異均無統計學意義;椎體最大壓縮彊度雙側全灌註組>單側全灌註組、雙側前2/3灌註組和雙側後2/3灌註組>單側前2/3灌註組和單側後2/3灌註組.PKP術後雙側全灌註組椎體剛度和初始剛度比較差異無統計學意義,其餘各組度均明顯小于初始剛度.單側前2/3灌註組、單側後2/3灌註組和單側全灌註組比較,D和雙側後2/3灌註組比較差異無統計學意義;雙側全灌註組>雙側前2/3灌註組和雙側後2/3灌註組>單側前2/3灌註組、單側後2/3灌註組和單側全灌註組.結論 骨水泥分佈在骨質疏鬆性骨摺椎體的不同區域,其生物力學性能存在差異,骨水泥在椎體雙側分佈較單側分佈可以穫得更好的生物力學效應.骨水泥均勻分佈于椎體前2/3區域是較為理想的分佈狀態,但仍需臨床進一步驗證.
목적 연구골수니재요추골질소송성골절추체내불동구역분포상태적생물역학특성,위경피추체후철성형술(percutaneous kyphoplasty,PKP)림상응용제공이론의거.방법 취12구복이마림고정적노년시체요추표본(포괄L1~L5),공사선49개추체.대각추체표본시가축향압력부재,측량각추체적원시강도화강도,병건립추체압축골절모형.안림상PKP수술조작요구근거불동적추체분구관주골수니,분위대조조화6개실험조,매조7개추체.측량매조적최대압축강도화강도.결과 PKP술후각실험조최대압축강도교초시강도균명현증강.단측전2/3관주조화단측후2/3관주조비교,단측전관주조、쌍측전2/3관주조화쌍측후2/3관주조비교차이균무통계학의의;추체최대압축강도쌍측전관주조>단측전관주조、쌍측전2/3관주조화쌍측후2/3관주조>단측전2/3관주조화단측후2/3관주조.PKP술후쌍측전관주조추체강도화초시강도비교차이무통계학의의,기여각조도균명현소우초시강도.단측전2/3관주조、단측후2/3관주조화단측전관주조비교,D화쌍측후2/3관주조비교차이무통계학의의;쌍측전관주조>쌍측전2/3관주조화쌍측후2/3관주조>단측전2/3관주조、단측후2/3관주조화단측전관주조.결론 골수니분포재골질소송성골절추체적불동구역,기생물역학성능존재차이,골수니재추체쌍측분포교단측분포가이획득경호적생물역학효응.골수니균균분포우추체전2/3구역시교위이상적분포상태,단잉수림상진일보험증.
Objective To evaluate biomechanical effect of bone cement distribution on lumbar vertebral body with osteoporotic fracture.Methods Forty nine lumbar vertebrae (L1-L5) specimens were collected from 12 old cadavers.After exerting axial pressure load on every specimen,the initial intensity and stiffness were measured,and then vertebral body crush fracture models were established.According to zones where bone cement was injected in vertebrae,the specimens were divided into one control group and six experimental groups:A,B,C,D,E,F groups,i.e.unilateral anterior 2/3 group,unilateral posterior 2/3 group,unilateral whole group,bilateral anterior 2/3 group,bilateral posterior 2/3 group,and bilateral whole group,respectively,including 7 specimens in each group.In A,B,C groups,unipedicular balloon kyphoplasty was done,while in D,E,F groups,bipedicular balloon kyphoplasty was done.Then the maximum compressive strength and stiffness were measured.Results After percutaneous kyphoplasty,the maximum strength in all experimental groups was significantly greater than that in the control group.There were no significant differences in strength between A and B groups,between C,D and E groups.For the maximum strength,the results of comparison were:F group > C group,D and C groups > A and B groups.Except for F group,the stiffness in other 5 experimental groups was significantly lower than its initial value.There were no significant differences in stiffness between A,B,and C groups,between D and E groups.However,the stiffness in F group was greater than those in D and E groups,and it was greater in bilateral groups than those in unilateral groups.Conclusion Bone cement distribution in lumbar vertebral body can affect biomechanical property of vertebral body,and the bilateral distribution can cause better biomechanical effect than unilateral distribution.The ideal distribution zone of bone cement is in the anterior 2/3 of the vertebral body.
